"""
===============================================
Cross-validation on diabetes Dataset Exercise
===============================================

A tutorial exercise which uses cross-validation with linear models.

This exercise is used in the :ref:`cv_estimators_tut` part of the
:ref:`model_selection_tut` section of the :ref:`stat_learn_tut_index`.

"""

# Authors: The scikit-learn developers
# SPDX-License-Identifier: BSD-3-Clause

# %%
# Load dataset and apply GridSearchCV
# -----------------------------------
import matplotlib.pyplot as plt
import numpy as np

from sklearn import datasets
from sklearn.linear_model import Lasso
from sklearn.model_selection import GridSearchCV

X, y = datasets.load_diabetes(return_X_y=True)
X = X[:150]
y = y[:150]

lasso = Lasso(random_state=0, max_iter=10000)
alphas = np.logspace(-4, -0.5, 30)

tuned_parameters = [{"alpha": alphas}]
n_folds = 5

clf = GridSearchCV(lasso, tuned_parameters, cv=n_folds, refit=False)
clf.fit(X, y)
scores = clf.cv_results_["mean_test_score"]
scores_std = clf.cv_results_["std_test_score"]

# %%
# Plot error lines showing +/- std. errors of the scores
# ------------------------------------------------------

plt.figure().set_size_inches(8, 6)
plt.semilogx(alphas, scores)

std_error = scores_std / np.sqrt(n_folds)

plt.semilogx(alphas, scores + std_error, "b--")
plt.semilogx(alphas, scores - std_error, "b--")

# alpha=0.2 controls the translucency of the fill color
plt.fill_between(alphas, scores + std_error, scores - std_error, alpha=0.2)

plt.ylabel("CV score +/- std error")
plt.xlabel("alpha")
plt.axhline(np.max(scores), linestyle="--", color=".5")
plt.xlim([alphas[0], alphas[-1]])

# %%
# Bonus: how much can you trust the selection of alpha?
# -----------------------------------------------------

# To answer this question we use the LassoCV object that sets its alpha
# parameter automatically from the data by internal cross-validation (i.e. it
# performs cross-validation on the training data it receives).
# We use external cross-validation to see how much the automatically obtained
# alphas differ across different cross-validation folds.

from sklearn.linear_model import LassoCV
from sklearn.model_selection import KFold

lasso_cv = LassoCV(alphas=alphas, random_state=0, max_iter=10000)
k_fold = KFold(3)

print("Answer to the bonus question:", "how much can you trust the selection of alpha?")
print()
print("Alpha parameters maximising the generalization score on different")
print("subsets of the data:")
for k, (train, test) in enumerate(k_fold.split(X, y)):
    lasso_cv.fit(X[train], y[train])
    print(
        "[fold {0}] alpha: {1:.5f}, score: {2:.5f}".format(
            k, lasso_cv.alpha_, lasso_cv.score(X[test], y[test])
        )
    )
print()
print("Answer: Not very much since we obtained different alphas for different")
print("subsets of the data and moreover, the scores for these alphas differ")
print("quite substantially.")

plt.show()
